Spt5 介导 Paf1 复合物与染色质募集的结构基础。
Structural basis for Spt5-mediated recruitment of the Paf1 complex to chromatin.
机构信息
Department of Biological Sciences, University of Pittsburgh, Pittsburgh, PA 15260.
出版信息
Proc Natl Acad Sci U S A. 2013 Oct 22;110(43):17290-5. doi: 10.1073/pnas.1314754110. Epub 2013 Oct 7.
Abstract
Polymerase associated factor 1 complex (Paf1C) broadly influences gene expression by regulating chromatin structure and the recruitment of RNA-processing factors during transcription elongation. The Plus3 domain of the Rtf1 subunit mediates Paf1C recruitment to genes by binding a repeating domain within the elongation factor Spt5 (suppressor of Ty). Here we provide a molecular description of this interaction by reporting the structure of human Rtf1 Plus3 in complex with a phosphorylated Spt5 repeat. We find that Spt5 binding is mediated by an extended surface containing phosphothreonine recognition and hydrophobic interfaces that interact with residues outside the Spt5 motif. Changes within these interfaces diminish binding of Spt5 in vitro and chromatin localization of Rtf1 in vivo. The structure reveals the basis for recognition of the repeat motif of Spt5, a key player in the recruitment of gene regulatory factors to RNA polymerase II.
摘要
多聚酶关联因子 1 复合物(Paf1C)通过调节染色质结构和在转录延伸过程中招募 RNA 加工因子,广泛影响基因表达。Rtf1 亚基的 Plus3 结构域通过与延伸因子 Spt5(Ty 抑制因子)内的重复结构域结合,介导 Paf1C 与基因的结合。在这里,我们通过报道人 Rtf1 Plus3 与磷酸化 Spt5 重复序列复合物的结构,提供了这种相互作用的分子描述。我们发现,Spt5 结合是由一个包含磷酸苏氨酸识别和疏水性界面的扩展表面介导的,这些界面与 Spt5 基序之外的残基相互作用。这些界面内的变化会降低 Spt5 在体外的结合能力,并降低 Rtf1 在体内与染色质的定位。该结构揭示了识别 Spt5 重复基序的基础,Spt5 是将基因调控因子募集到 RNA 聚合酶 II 的关键因子。
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